界面移位键控在分子通信中实现高信息率:方法和数据

IF 2.4 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC
Federico Calì;Giovanni Li-Destri;Nunzio Tuccitto
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引用次数: 1

摘要

本研究报告了一种在流体中进行分子通讯的方法,并提供了试验台的详细描述和大量实验数据。原型包括由荧光碳纳米颗粒携带的信息。还描述了合成和荧光性质的细节。信号调制是通过利用被称为粘度指进的界面现象的不稳定性效应来实现的,当具有不同粘度或强密度变化的两种可混溶液体相互接触时,就会发生这种现象。这种调制称为界面移位键控。数据证实了该方法的再现性。详细描述了一种基于两个连续闭合释放的有意叠加的新方法,并提供了几个实验复制品的数据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Interfacial Shift Keying Allows a High Information Rate in Molecular Communication: Methods and Data
This study reports a method for molecular communication in fluids and provides a detailed description of the testbed and numerous experimental data. The prototype involves information being carried by fluorescent carbon nanoparticles. The details of the synthesis and fluorescence properties are also described. Signal modulation was achieved by exploiting the instability effect of an interfacial phenomenon known as viscosity fingering, which occurs when two miscible liquids with different viscosities or strong density variations contact one another. This modulation is called interfacial shift keying. The data confirm the reproducibility of the method. A new approach based on the deliberate superposition of two consecutive close releases is described in detail, and data from several experimental replicas are provided.
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来源期刊
CiteScore
3.90
自引率
13.60%
发文量
23
期刊介绍: As a result of recent advances in MEMS/NEMS and systems biology, as well as the emergence of synthetic bacteria and lab/process-on-a-chip techniques, it is now possible to design chemical “circuits”, custom organisms, micro/nanoscale swarms of devices, and a host of other new systems. This success opens up a new frontier for interdisciplinary communications techniques using chemistry, biology, and other principles that have not been considered in the communications literature. The IEEE Transactions on Molecular, Biological, and Multi-Scale Communications (T-MBMSC) is devoted to the principles, design, and analysis of communication systems that use physics beyond classical electromagnetism. This includes molecular, quantum, and other physical, chemical and biological techniques; as well as new communication techniques at small scales or across multiple scales (e.g., nano to micro to macro; note that strictly nanoscale systems, 1-100 nm, are outside the scope of this journal). Original research articles on one or more of the following topics are within scope: mathematical modeling, information/communication and network theoretic analysis, standardization and industrial applications, and analytical or experimental studies on communication processes or networks in biology. Contributions on related topics may also be considered for publication. Contributions from researchers outside the IEEE’s typical audience are encouraged.
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